gas reservoir

简明释义

气筒

英英释义

例句

1.The engineers are conducting tests to determine the capacity of the gas reservoir 天然气储层 in this region.

工程师们正在进行测试，以确定该地区的天然气储层的容量。

2.The geologists mapped the underground structure to locate potential gas reservoirs 天然气储层 for future exploration.

地质学家绘制了地下结构图，以定位未来勘探的潜在天然气储层。

3.The discovery of a new gas reservoir 天然气储层 could significantly boost the local economy.

新天然气储层的发现可能会显著推动当地经济发展。

4.Monitoring the pressure in the gas reservoir 天然气储层 is crucial for maintaining production levels.

监测天然气储层中的压力对于维持生产水平至关重要。

5.A new drilling technique was developed to extract more gas from the gas reservoir 天然气储层 efficiently.

开发了一种新钻探技术，以高效地从天然气储层中提取更多天然气。

作文

The term gas reservoir refers to a geological formation that contains natural gas, which can be extracted for energy production and various industrial applications. Understanding the characteristics and behaviors of a gas reservoir is crucial for effective exploration and extraction strategies. These reservoirs are typically located deep beneath the Earth's surface and are often associated with porous rock formations that can trap gas over millions of years. The study of these formations involves various geological and engineering disciplines, including geology, geophysics, and petroleum engineering.In the context of energy production, the significance of a gas reservoir cannot be overstated. As the world shifts towards cleaner energy sources, natural gas has emerged as a vital component of the energy mix. It is considered a bridge fuel, providing a cleaner alternative to coal and oil while renewable energy sources are being developed and scaled. However, the extraction of natural gas from a gas reservoir poses several challenges, including environmental concerns and the need for advanced technology to ensure efficient and safe extraction methods.One of the primary methods of extracting gas from a gas reservoir is hydraulic fracturing, commonly known as fracking. This technique involves injecting high-pressure fluid into the reservoir to create fractures in the rock, allowing the gas to flow more freely to the surface. While this method has significantly increased the availability of natural gas, it has also raised concerns regarding its environmental impact, including water contamination and increased seismic activity. Therefore, it is essential to balance the economic benefits of accessing a gas reservoir with the potential risks to the environment and local communities.Moreover, understanding the dynamics of a gas reservoir is critical for optimizing production. Reservoir engineers use various models and simulations to predict how gas will flow within the reservoir and to determine the best drilling locations. By analyzing factors such as pressure, temperature, and the physical properties of the rock, they can develop strategies to maximize recovery rates and minimize costs. This requires a combination of scientific knowledge, technical skills, and practical experience.In addition to traditional extraction methods, advancements in technology are paving the way for more sustainable practices in utilizing gas reservoirs. Innovations such as carbon capture and storage (CCS) aim to reduce the carbon footprint associated with natural gas extraction and usage. By capturing CO2 emissions produced during combustion and storing them underground, these technologies could significantly mitigate the environmental impact of relying on fossil fuels.In conclusion, the concept of a gas reservoir plays a pivotal role in the energy landscape. As society continues to seek cleaner energy solutions, understanding and managing these reservoirs responsibly will be essential. The balance between economic development and environmental stewardship will shape the future of energy production, making it imperative for stakeholders to engage in responsible practices when exploring and extracting resources from a gas reservoir.

“气体储层”这个术语指的是包含天然气的地质构造，这些天然气可以被提取用于能源生产和各种工业应用。理解“气体储层”的特征和行为对于有效的勘探和提取策略至关重要。这些储层通常位于地球表面下方的深处，通常与能够在数百万年内捕获气体的多孔岩石构造相关联。对这些构造的研究涉及多个地质和工程学科，包括地质学、地球物理学和石油工程。在能源生产的背景下，“气体储层”的重要性不容小觑。随着世界向更清洁的能源来源转型，天然气已成为能源组合的重要组成部分。它被视为一种桥梁燃料，为煤炭和石油提供了一种更清洁的替代品，同时可再生能源正在开发和扩展。然而，从“气体储层”中提取天然气面临着几个挑战，包括环境问题和确保高效、安全的提取方法所需的先进技术。因此，在访问“气体储层”的经济利益与对环境和当地社区潜在风险之间取得平衡至关重要。从“气体储层”中提取气体的主要方法之一是水力压裂，通常称为压裂。这种技术涉及将高压液体注入储层，以在岩石中创造裂缝，从而允许气体更自由地流向地面。虽然这种方法显著增加了天然气的可用性，但也引发了关于其环境影响的担忧，包括水污染和地震活动增加。因此，了解“气体储层”的动态对于优化生产至关重要。储层工程师使用各种模型和模拟来预测气体在储层中的流动方式，并确定最佳钻井位置。通过分析压力、温度和岩石的物理特性等因素，他们可以制定最大化回收率和最小化成本的策略。这需要科学知识、技术技能和实践经验的结合。除了传统的提取方法之外，技术的进步为在利用“气体储层”方面采用更可持续的做法铺平了道路。碳捕获与储存（CCS）等创新旨在减少与天然气提取和使用相关的碳足迹。通过捕获燃烧过程中产生的二氧化碳排放并将其储存于地下，这些技术可以显著减轻依赖化石燃料的环境影响。总之，“气体储层”的概念在能源领域中发挥着关键作用。随着社会继续寻求更清洁的能源解决方案，负责任地理解和管理这些储层将至关重要。经济发展与环境保护之间的平衡将塑造未来的能源生产，使利益相关者在勘探和提取“气体储层”资源时采取负责任的做法变得至关重要。